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Surface grafting of electrospun fibers using ATRP and RAFT for the control of biointerfacial interactions

dc.contributor.authorAmeringer, Thomas
dc.contributor.authorErcole, Francesca
dc.contributor.authorTsang, Kelly M.
dc.contributor.authorCoad, Bryan R.
dc.contributor.authorHou, Xueliang
dc.contributor.authorRodda, Andrew
dc.contributor.authorNisbet, David R.
dc.contributor.authorThissen, Helmut
dc.contributor.authorEvans, Richard A.
dc.contributor.authorMeagher, Laurence
dc.contributor.authorForsythe, John S.
dc.date.accessioned2015-09-22T02:33:08Z
dc.date.available2015-09-22T02:33:08Z
dc.date.issued2013
dc.date.updated2015-12-11T08:24:44Z
dc.description.abstractBACKGROUND The ability to present signalling molecules within a low fouling 3D environment that mimics the extracellular matrix is an important goal for a range of biomedical applications, both in vitro and in vivo. Cell responses can be triggered by non-specific protein interactions occurring on the surface of a biomaterial, which is an undesirable process when studying specific receptor-ligand interactions. It is therefore useful to present specific ligands of interest to cell surface receptors in a 3D environment that minimizes non-specific interactions with biomolecules, such as proteins. METHOD In this study, surface-initiated atom transfer radical polymerization (SI-ATRP) of poly(ethylene glycol)-based monomers was carried out from the surface of electrospun fibers composed of a styrene/vinylbenzyl chloride copolymer. Surface initiated radical addition-fragmentation chain transfer (SI-RAFT) polymerisation was also carried out to generate bottle brush copolymer coatings consisting of poly(acrylic acid) and poly(acrylamide). These were grown from surface trithiocarbonate groups generated from the chloromethyl styrene moieties existing in the original synthesised polymer. XPS was used to characterise the surface composition of the fibers after grafting and after coupling with fluorine functional XPS labels. RESULTS Bottle brush type coatings were able to be produced by ATRP which consisted of poly(ethylene glycol) methacrylate and a terminal alkyne-functionalised monomer. The ATRP coatings showed reduced non-specific protein adsorption, as a result of effective PEG incorporation and pendant alkynes groups existing as part of the brushes allowed for further conjugation of via azide-alkyne Huisgen 1,3-dipolar cycloaddition. In the case of RAFT, carboxylic acid moieties were effectively coupled to an amine label via amide bond formation. In each case XPS analysis demonstrated that covalent immobilisation had effectively taken place. CONCLUSION Overall, the studies presented an effective platform for the preparation of 3D scaffolds which contain effective conjugation sites for attachment of specific bioactive signals of interest, as well as actively reducing non-specific protein interactions.
dc.description.sponsorshipThis research was supported by the Cooperative Research Centre for Polymers (CRCP).en_AU
dc.identifier.issn1559-4106en_AU
dc.identifier.urihttp://hdl.handle.net/1885/15632
dc.publisherAmerican Institute of Physics
dc.rights© 2013 Ameringer et al. This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
dc.sourceBiointerphases
dc.subjectbiocompatible materials
dc.subjectmethacrylates
dc.subjectpolyethylene glycols
dc.subjectpolymerization
dc.subjectpolymers
dc.subjectsurface properties
dc.titleSurface grafting of electrospun fibers using ATRP and RAFT for the control of biointerfacial interactions
dc.typeJournal article
local.bibliographicCitation.issue1en_AU
local.bibliographicCitation.lastpage11
local.bibliographicCitation.startpage16en_AU
local.contributor.affiliationAmeringer, Thomas, CSIRO, Materials Science and Engineering, Australiaen_AU
local.contributor.affiliationErcole, Francesca, Monash University, Australiaen_AU
local.contributor.affiliationTsang, Kelly M, Monash University, Australiaen_AU
local.contributor.affiliationCoad, Bryan R, CSIRO, Materials Science and Engineering, Australiaen_AU
local.contributor.affiliationHou, Xueliang, Monash University, Australiaen_AU
local.contributor.affiliationRodda, Andrew, CSIRO, Materials Science and Engineering, Australiaen_AU
local.contributor.affiliationNisbet, David, College of Engineering and Computer Science, College of Engineering and Computer Science, Research School of Engineering, The Australian National Universityen_AU
local.contributor.affiliationThissen, Helmut, CSIRO, Materials Science and Engineering, Australiaen_AU
local.contributor.affiliationEvans, Richard A, CSIRO, Materials Science and Engineering, Australiaen_AU
local.contributor.affiliationMeagher, Laurence, CSIRO Molecular Science, Australiaen_AU
local.contributor.affiliationForsythe, John S., Monash University, Australiaen_AU
local.contributor.authoruidu5031428en_AU
local.description.notesImported from ARIESen_AU
local.identifier.absfor090600en_AU
local.identifier.ariespublicationf5625xPUB3787en_AU
local.identifier.citationvolume8en_AU
local.identifier.doi10.1186/1559-4106-8-16en_AU
local.identifier.essn1559-4106en_AU
local.identifier.scopusID2-s2.0-84881253302
local.identifier.thomsonID000322583200002
local.publisher.urlhttps://www.aip.org/en_AU
local.type.statusPublished Versionen_AU

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